DE102011051035A1 - Conveyor with a hybrid conveyor belt - Google Patents

Abstract

The invention relates to a conveyor system with a conveyor belt with a support-side and running-side cover plate each made of a polymer material with elastic properties and with an embedded tension member (17) and with a transverse reinforcement (16) arranged within the support-side and / or running-side cover plate, the running-side cover plate is supported on support rollers, namely with the formation of a first section of a conveyor system with a trough conveyor belt and a second section of a conveyor system with a tubular conveyor belt. The conveyor system according to the invention is characterized in that the transverse reinforcement (16) of the conveyor belt has a high elastic elongation with no or only very little permanent deformation. The transverse reinforcement (16) consists, for example, of individual transverse cords (18, 19, 20) of different lengths in the transverse direction of the conveyor belt. A conveyor belt of the aforementioned type is also referred to as a hybrid conveyor belt.

Description

The invention relates to a conveyor system with a conveyor belt with a support side and running side cover plate each having a polymeric material with elastic properties and with an embedded tensile member and a disposed within the support side and / or running side cover plate cross armament, wherein the running side cover plate is supported on support rollers, to form a first section of a conveyor with a Muldenfördergurt and a second section of a conveyor with a Rohrfördergurt.

The support-side and running-side cover plates usually each consist of a rubber mixture containing a rubber component or a rubber component blend, a crosslinking agent or a crosslinking system comprising a crosslinking agent and an accelerator, and usually further Mischingingredienien, in particular a filler and / or a processing aid and / or an anti-aging agent and / or a plasticizer and / or other additives (eg fibers, color pigments). The relevant rubber base is in particular:

Natural rubber (NR)
Butadiene rubber (BR)
Chloroprene rubber (CR)
Styrene butadiene rubber (SBR)
Nitrile rubber (NBR)
Butyl rubber (IIR)
Ethylene-propylene rubber (EPM)
Ethylene-propylene-diene rubber (EPDM)
SBR / NR blend
SBR / BR blend
NR / BR blend

Of particular importance to date is CR, which is characterized by high resistance to fire, weathering and aging, in particular for conveyor belts used in underground mining. In surface mining, NR and the abovementioned blends ( DE 10 2009 043 904 A1 ) has become more important.

Due to the vulcanization of a rubber mixture of the type mentioned above, the conveyor belt undergoes the necessary elastic properties.

As embedded tension members, steel or aramid ropes running in the longitudinal direction of the conveyor belt are used, ropes made of steel being of particular importance. In particular in connection with steel cable conveyor belts, a transverse reinforcement made of synthetic cords, for example made of polyamide, embedded in the support side and / or upper side cover plate is additionally used for slot protection ( WO 2008/034483 A1 ). The tension member may also be a textile fabric, in particular a single-layer or multi-layer fabric, for example a polyester-polyamide fabric.

Essential components of a conveyor system with an upper run and lower run are drums (drive drum, reversing drum), carrying rollers and shoring. Further components of a conveyor system can be a feed chute, deflection rollers in the region of the lower run as well as conveyor belt profiles made of a polymeric material, for example edge profiles. Many conveyor systems, especially large conveyor systems, are now also equipped with a monitoring system, for example by means of camera surveillance or X-rays.

In most cases, the leadership of a conveyor belt takes place in a conveyor system in an open form, in the context of a domed carrying roller chair. It is from the published patent application DE 10 2008 045 587 A1 it is known to use a transverse reinforcement in conveyor belts subject to particularly high loads, which comprises in the running direction of the conveyor belt at least two groups of transverse cords, which are distinguished by a different length in the transverse armoring direction. Furthermore, in the post-published patent application DE 10 2010 000 588.6 a curved conveyor belt, in particular steel cable conveyor belt, and a conveyor system presented for this purpose. Thereafter, the tension member is arranged exclusively within the central region of the conveyor belt. In addition, at least within the two edge regions of the conveyor belt, an extensible fabric or stretchable Einzelcorde extending in Fördergurtquerrichtung from each textile material embedded in the conveyor belt, within the support side and / or running side cover plate.

Troughed conveyor belts are characterized by a high flow rate and low energy consumption. Tolled conveyor belts must be as level as possible. This is easily ensured by the ordinary design. The conveyor belts are usually on three- or five-part idlers. The conveyed material is piled up and unprotected on the support-side cover plate of the conveyor belt.

• – es ist besonders kurvengängig;
• – es hat eine besonders hohe Steigfähigkeit;
• – es ist platzsparend;
• – es schützt das Fördergut sowie die Umwelt, beispielsweise bei Staub oder radioaktivem Fördergut.

In the last 20 years, however, the closed conveyor system has been decisively developed using a tubular conveyor belt. Within the inlet and outlet section, the conveyor belt is troughed as in conventional belt conveyors. On the transport and return line, however, closes the conveyor belt and forms a tube (Rohrfördergurt, Schlauchgurt, Rollgurt). For this transport system will be annular arranged support rollers and possibly additional correction rollers needed. In addition to conventional belt conveyors, the closed conveyor belt system has the following advantages:

• - it is especially curvy;
• - it has a particularly high climbing ability;
• - it saves space;
• - It protects the goods as well as the environment, for example in the case of dust or radioactive material.

It is important that pipe conveyor belts can easily be formed into a circle, in order to keep the movement resistance low by high contact pressure on the surrounding carrying rollers. Tube conveyor belts will eventually become round in shape as a result of permanent deformation of the processed components, which is generally beneficial for the function and energy consumption of the conveyor belt.

With regard to the relevant state of the tubular conveyor belt technology, reference is made in particular to the following patent literature:

DE 36 06 129 A1
DE 36 12 765 A1
DE 43 33 839 B4
DE 10 2009 003 552 A1
EP 0 336 385 B1

• – Gewünscht ist diese gemischte Anlagenkonzeption bei der Überquerung von Flüssen und Tälern, wo wegen der Gewichtsgrenzen keine Abdeckungen der Förderanlage möglich sind. Ein Rohrfördergurt schützt das Fördermaterial wie auch die Umwelt. Das Gleiche gilt auch für windreiche Strecken.
• – Nur Teilbereiche der gesamten Förderanlage liegen in Kurven. Bisher werden solche Fälle mit einer Aneinanderreihung von Muldenfördergurten und Rohrfördergurten, die mittels Fördermaterialübergaben verbunden sind, gelöst. Diese Übergabestationen sind jedoch teuer, wartungsintensiv und zudem sehr verschleißfördernd.

Applications in which the use of both Fördergurtausführungen, namely a Muldenfördergurtes and a Rohrfördergurtes within certain sections of equipment are required, are increasing in the meantime, with particular reference to the following examples:

• - This mixed system design is desired when crossing rivers and valleys, where due to the weight limits no covers of the conveyor system are possible. A tubular conveyor belt protects the material as well as the environment. The same applies to windy routes.
• - Only parts of the entire conveyor system are in curves. So far, such cases are solved with a juxtaposition of Muldenfördergurten and Rohrfördergurten, which are connected by conveying material transfers. However, these transfer stations are expensive, maintenance-intensive and also very wear-promoting.

The object of the invention is therefore to provide a conveyor whose conveyor belt is designed such that it assumes both the shape of a Muldenfördergurtes as well as a Rohrfördergurtes (hybrid conveyor belt).

This object is achieved in that the transverse reinforcement of the conveyor belt has a high elastic strain with no or only very small remaining deformation.

• – Die Querarmierung besteht aus einem textilen Werkstoff, insbesondere aus einem Polyamid (PA), beispielsweise PA11 oder PA12, oder aus einem Polyimid (PI), wobei hier das Polyetherimid (PEI) besonders zu erwähnen ist. Das PEI ist ein zur Gruppe der hochtemperaturbeständigen Kunststoffe zählender Hochleistungsthermoplast. Bislang wurde PEI bevorzugt zu Kunststoffteilen für die Elektronik und in der Flugzeugindustrie, hier wiederum insbesondere im Flugzeuginnenbereich, verarbeitet. Die Querarmierung liegt hier insbesondere in einer Cordkonstruktion vor, entweder in Form von Einzelcorden oder eines Cordgewebes. Das Cordgewebe umfasst dabei Quercorde und in Fördergurtlängsrichtung verlaufende Kettfäden (Hilfsfäden), die beispielsweise aus einem Polyester bestehen.
• – Die Querarmierung besteht aus einem Formgedächtniswerkstoff, der derart beschaffen ist, dass die Rückstellung in die Ausgangsform, die sich auf die gestreckte Lage bezieht, durch Einwirken eines externen Impulses möglich ist, beispielsweise mittels eines Magnetfeldes oder bei einer bestimmten Temperatur oder unter optischen Einflüssen. Bei Einsatz dieses Werkstoffes würde der Fördergurt vor dem Öffnen in die Muldenform diesem Impuls ausgesetzt werden und in die ursprüngliche, gestreckte Form zurückgehen.

With regard to the transverse reinforcement, the following material concepts are particularly important:

• The transverse reinforcement consists of a textile material, in particular of a polyamide (PA), for example PA11 or PA12, or of a polyimide (PI), in which case the polyetherimide (PEI) is to be mentioned in particular. The PEI is a high-performance thermoplastic belonging to the group of high-temperature-resistant plastics. So far, PEI has been preferred for plastic parts for electronics and in the aircraft industry, here again in particular in the aircraft interior, processed. The transverse reinforcement is here in particular in a cord construction, either in the form of Einzelcorden or a Cordgewebes. The cord fabric comprises transverse cords and warp threads (auxiliary threads) running in the longitudinal direction of the conveyor belt, which consist for example of a polyester.
• - The transverse reinforcement consists of a shape memory material, which is such that the return to the initial shape, which refers to the extended position, by the action of an external pulse is possible, for example by means of a magnetic field or at a certain temperature or under optical influences. When using this material, the conveyor belt would be exposed to this pulse before opening into the mold and go back to the original, elongated shape.

With regard to the shape memory material, the following two types of material are used in particular:

Shape Memory Polymer (SMP)

A shape-memory polymer is, for example, a thermoplastic polyurethane obtainable by reacting an isocyanate component with a polyol component. In this regard, in particular to the published patent application DE 10 2005 021 366 A1 directed.

Shape memory alloy (SMA)

Such shape memory alloys are often referred to as memory metals. Exemplary alloys are:

Nickel-titanium (NiTi)
Copper-zinc (CuZn)
Copper-zinc-aluminum (CuZnAl)
Copper-aluminum-nickel (CuAlNi)
Iron-nickel-aluminum (FeNiAl)

For details of shape memory alloys, refer to Wikipedia, the free encyclopedia.

The invention will now be explained in more detail by means of exemplary embodiments with reference to schematic drawings. Show it:

1 the first section of a conveyor with a trough conveyor belt;

2 the second section of a conveyor with a tube conveyor belt;

3 a Querarmierung in the form of a Cordgewebes with equal long crosses;

4 a transverse reinforcement in the form of single transverse cords of different lengths in Fördergurtquerrichtung.

1 shows the first section of a conveyor system 1 with a conveyor belt 2 in the form of a trough conveyor belt. The conveyor belt comprises a support-side cover plate 3 and a running cover plate 4 each of a vulcanized rubber mixture, for example based on CR. The running side cover plate 4 relies on carrying rollers 5 from. The carrying rollers thereby form a troughed carrying roller chair. With regard to other parts of the system, reference is made to the description of the prior art.

2 shows the second section of a conveyor 6 with a conveyor belt 7 in the form of a tube conveyor belt with an overlap area 10 the two corresponding Gurtrandbereiche. The conveyor belt also includes a support-side cover plate here 8th and a running cover plate 9 each of a vulcanized rubber mixture, for example, again based on CR. The running side cover plate 9 relies on ring-shaped carrying rollers 11 from. With regard to other parts of the installation, reference is made in particular to the tubular conveyor belt technique cited in the description.

In the conveyor belt 2 ( 1 ) and 7 ( 2 ) In each case a tensile carrier is embedded, in particular in the form of steel cables. Within the respective support-side and / or running-side cover plate, a transverse reinforcement is arranged. This inner life of a conveyor belt will now be combined with the 3 and 4 explained in more detail.

3 shows a transverse reinforcement 12 in the form of a cord fabric comprising crosscords 14 , which are transverse to the tension member 13 run, and in Fördergurtlängsrichtung (Zugträgerrichtung) running warp threads 15 , The crosscords consist in particular of PEI.

4 shows a transverse reinforcement 16 , consisting of single crosses 18 . 19 and 20 , which are transverse to the tension member 17 are arranged. These individual crosscords, which in turn consist in particular of PEI, are characterized in Fördergurtquerrichtung by a different length. In the process, three cross arming groups occur within the framework of an always uniformly repeating arrangement principle, namely:

Einzelquercord 18 : long (essentially over the entire conveyor belt width)
Einzelquercord 19 : medium long (not grasping the two belt edge areas)
Einzelquercord 20 : short (only detecting the belt mid-range)

Also a transverse reinforcement with two Querarmierungsgruppen, for example, from the individual crosses 18 and 20 , is a possible cross arming variant.

That in the 3 and 4 Crossarming concept shown is also applicable to shape memory materials.

LIST OF REFERENCE NUMBERS

1

conveyor system

2

Conveyor belt (trough conveyor belt)

3

load-bearing cover plate

4

running side cover plate

5

idlers

6

conveyor system

7

Conveyor belt (pipe conveyor belt)

8th

load-bearing cover plate

9

running side cover plate

10

 overlap area

11

 idlers

12

 transverse reinforcement

13

 tension members

14

 Quercord

15

 warp

16

 transverse reinforcement

17

 tension members

18

 Einzelquercord

19

 Einzelquercord

20

 Einzelquercord

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009043904 A1 [0003]
• WO 2008/034483 A1 [0005]
• DE 102008045587 A1 [0007]
• DE 102010000588 [0007]
• DE 3606129 A1 [0011]
• DE 3612765 A1 [0011]
• DE 4333839 B4 [0011]
• DE 102009003552 A1 [0011]
• EP 0336385 B1 [0011]
• DE 102005021366 A1 [0017]

Claims (12)

Conveyor system ( 1 . 6 ) with a conveyor belt ( 2 . 7 ) with a support-side cover plate ( 3 . 8th ) and a running side cover plate ( 4 . 9 ) each of a polymeric material having elastic properties and having an embedded tensile member ( 13 . 17 ) as well as with a transverse reinforcement arranged inside the carrier-side and / or running-side cover plate ( 12 . 16 ), wherein the run-side cover plate on support rollers ( 5 . 11 ), with the formation of a first section of a conveyor system ( 1 ) with a trough conveyor belt ( 2 ) and a second section of a conveyor system ( 6 ) with a tube conveyor belt ( 7 ), characterized in that the transverse reinforcement ( 12 . 16 ) of the conveyor belt ( 2 . 7 ) has a high elastic strain with no or only very small remaining deformation. Conveyor system according to claim 1, characterized in that the transverse reinforcement ( 12 . 16 ) consists of a textile material. Conveyor system according to claim 2, characterized in that the transverse reinforcement ( 12 . 16 ) consists of a polyamide or polyimide. Conveyor system according to claim 3, characterized in that the polyimide is a polyetherimide. Conveying system according to one of claims 2 to 4, characterized in that the transverse reinforcement ( 12 . 16 ) is present in a cord construction. Conveyor system according to claim 5, characterized in that the transverse reinforcement ( 16 ) from single crosses ( 18 . 19 . 20 ) consists. Conveyor system according to claim 5, characterized in that the transverse reinforcement ( 12 ) is a cord tissue comprising quercords ( 14 ) and in the conveyor belt longitudinally extending warp threads ( 15 ). Conveyor system according to claim 1, characterized in that the transverse reinforcement ( 12 . 16 ) consists of a shape memory material. Conveying system according to claim 8, characterized in that the shape memory material is such that the return to the initial shape, which refers to the extended position, by the action of an external pulse is possible. Conveyor system according to claim 8 or 9, characterized in that the transverse reinforcement ( 12 . 16 ) consists of a shape memory polymer. Conveyor system according to claim 8 or 9, characterized in that the transverse reinforcement ( 12 . 16 ) consists of a shape memory alloy. Conveyor system according to one of claims 1 to 11, characterized in that the transverse reinforcement ( 16 ) has at least two Querarmierungsgruppen, which are characterized in Fördergurtquerrichtung by a different length.

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